CN205212690U - Be applied to grid -connected inverter's high frequency filter - Google Patents
Be applied to grid -connected inverter's high frequency filter Download PDFInfo
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- CN205212690U CN205212690U CN201520686428.6U CN201520686428U CN205212690U CN 205212690 U CN205212690 U CN 205212690U CN 201520686428 U CN201520686428 U CN 201520686428U CN 205212690 U CN205212690 U CN 205212690U
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Abstract
The utility model relates to a passive filter field especially relates to and belongs to a be applied to grid -connected inverter's high frequency filter. Including the IGBT converter, first inductance (L1), second inductance (L2) to and RC damping branch road, the first inductance of IGBT converter output connection (L1), output pass through second inductance (L2) and connect the electric wire netting, RC damping branch road includes the 5th electric capacity (C5) and damping resistance (R7), and the 5th electric capacity (C5) is established ties with damping resistance (R7), the radio -frequency component of IGBT bridge side output pass through RC damping branch road by the bypass to the zero line, its characterized in that: RC damping branch road connects in parallel has the harmonious branch road of two way LC, fourth inductance (L4), the 7th electric capacity (C7) and third inductance (L3), the 6th electric capacity (C6), and fourth inductance (L4) is established ties with the 7th electric capacity (C7), and the 7th electric capacity (C7) is established ties with third inductance (L3). The utility model discloses produce the loss hardly, resonant resistance R's value makes the damping action of resonance point position the strongest for the system possesses stronger damping characteristic, and can sample damping resistance voltage and be used for active damped algorithm.
Description
Technical field
The utility model relates to passive filter field, particularly relates to and belongs to a kind of high frequency filter being applied to combining inverter.
Background technology
The grid side of combining inverter generally adopts LCL type passive filter, but simple LCL filter exists resonance point, therefore generally on the high frequency branch road of filter, adopts RC type antihunt circuit.But there is loss in the damping resistance in RC circuit, its power depends on the mean effective value of high-frequency current, when the output current of active filter approaches rated value, because inductance is tending towards saturated, cause high-frequency current component sharply to increase, the power consumption on damping resistance may reach hundreds of watts.Therefore, when we can find the final damage of a lot of filter, its damping resistance is burnt often.Adopt the control algolithm of active damping that equipment can be avoided to run in resonance frequency, reduce the risk of resonance, damping resistance can be cancelled in theory, but because the current component flowing through high frequency branch road is very complicated, comprise power frequency composition and each harmonic, switching frequency and each harmonic thereof, resonant component, often switching frequency and 2,3 subharmonic thereof are main compositions, therefore how to extract resonant component, just become the key of algorithm success or failure.Even if adopt active damping algorithm in addition, for strengthening stability and the reliability of system, damping resistance remains requisite
Utility model content
The utility model object is to propose a kind of high frequency filter being applied to combining inverter device.
The technical solution of the utility model is as follows:
Be applied to a high frequency filter for combining inverter, comprise IGBT converter, the first inductance (L1), the second inductance (L2), and RC damping branch road; Described IGBT converter exports connection first inductance (L1), and output connects electrical network by the second inductance (L2); Described RC damping branch road comprises the 5th electric capacity (C5) and damping resistance (R7), and the 5th electric capacity (C5) is connected with damping resistance (R7); The radio-frequency component that IGBT bridge side exports is bypassed on zero line by RC damping branch road; It is characterized in that:
Described RC damping branch circuit parallel connection has the tuning branch road of two-way LC, the 4th inductance (L4), the 7th electric capacity (C7) and the 3rd inductance (L3), the 6th electric capacity (C6), 4th inductance (L4) is connected with the 7th electric capacity (C7), 7th electric capacity (C7) is connected with the 3rd inductance (L3), again respectively with RC damping branch circuit parallel connection, be tuned on switching frequency and switching frequency second harmonic respectively, be used for these 2 kinds of high-frequency current component that energy is the strongest in diverting switch ripple, make this part electric current without RC damping branch road.
Further, described damping resistance (R7) is parallel with Resonance detector circuit, described Resonance detector circuit is composed as follows:
First electric capacity (C1), the second electric capacity (C2) and transformer (T1) form resonant component and extract circuit, make it be tuned on system resonance frequencies; The secondary of transformer (T1) is connected with the first rectifier bridge (D1), the second rectifier bridge (D2), the 3rd rectifier bridge (D3), the 4th rectifier bridge (D4), and resonance current is rectified into direct current; Connect the first resistance (R1), the 3rd electric capacity (C3) again, filtering becomes level and smooth DC waveform; The height of the voltage of the 3rd electric capacity (C3) just represents the size of resonance amplitude; Circuit, from the sampling of damping resistance (R7) two ends, is connected to the first transformer (T1) former limit through the first electric capacity (C1) and the second electric capacity (C2); First transformer (T1) secondary exports after carrying out rectification through the first rectifier bridge (D1), the second rectifier bridge (D2), the 3rd rectifier bridge (D3), the 4th rectifier bridge (D4) after exporting, after the devices such as the first resistance (R1), the second resistance (R2), the first rectifier (D5), the second rectifier (D6) and the 3rd electric capacity (C3), make the first triode (Q1), (Q2) conducting of the second triode or cut-off, thus carry out Signal transmissions to the 3rd triode (Q3) Signal transmissions.
Further, described damping resistance (R7) is parallel with Resonance detector circuit, after first electric capacity (C1), the second electric capacity (C2) and transformer (T1) coupled resonance electric current, voltage signal is become by the 8th resistance (R8) of transformer (T1) secondary, described voltage signal delivers to controller, for the algorithm of active damping.
The utility model is by this tetrameric combination of extraction module of switching frequency first-harmonic branch road, switching frequency 2 branch roads, RC damping branch road, resonant component, the good effect of three aspects can be produced: 1, in high-frequency current component, the switching frequency first-harmonic that energy is maximum and 2 subharmonic compositions by set separately road absorb, produce loss hardly, therefore power consumption is enough low; 2, resonance frequency is mainly through RC damping branch road, and the value of resonant resistance R makes the damping action of resonance point position the strongest, makes system possess stronger damping characteristic; 3, the voltage at the resonant resistance two ends of damping branch road represents degree that resonance occurs and to a certain extent not by the interference of switching frequency and 2 subharmonic thereof, the algorithm of this resistance voltage for active damping of can sampling.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of traditional LCL filter circuit.
Fig. 2 is active filter circuit schematic diagram of the present utility model.
Fig. 3 is the schematic diagram of Resonance detector circuit of the present utility model.
Fig. 4 is the schematic diagram of another Resonance detector circuit of the utility model.
Embodiment
Below in conjunction with accompanying drawing, the technical solution of the utility model is further elaborated.
Fig. 1 is the schematic diagram of traditional LCL filter circuit, IGBT converter exports and connects inductance L 1, output connects electrical network by inductance L 2, the radio-frequency component that IGBT bridge side exports is bypassed on zero line mainly through RC damping branch road, because the mean effective value of electric current radio-frequency component generally has 10-30A, this can cause damping resistance to produce very large loss, if want to reduce its loss, resistance value can only be obtained smaller, but this can weaken damping action, make systematic comparison easily be absorbed in resonance condition.Therefore traditional LCL filter is contradiction between both power consumption and stability.Adopt active damping algorithm can improve this problem, but need the resonant component extracting high frequency branch road, but resonant component is smaller in the stage amplitude of initial resonance, be submerged among industrial frequency harmonic, switching frequency and each harmonic composition thereof, be unfavorable for very much sampling, especially the existence of HF switch frequency content makes to sample, and just must adopt high sample frequency and very excellent high order software algorithm filter, which has limited the application of active damping.
Fig. 2 is active filter circuit schematic diagram of the present utility model, IGBT converter exports and connects inductance L 1, output connects electrical network by inductance L 2, at originally traditional filter high-frequency RC branch road R7, the upper tuning branch road L4 of two-way LC in parallel of C5, C7 and L3, C6, be tuned on switching frequency and switching frequency second harmonic respectively, be used for these 2 kinds of high-frequency current component that energy is the strongest in diverting switch ripple, make this part electric current without RC damping branch road, and parallel resonance testing circuit on damping resistance R7, this generates the good effect of four aspects: 1, make the bypass impedance of high frequency branch road to two compositions the strongest in switching harmonics minimum, avoid these two compositions to output to grid side and form interference, 2, be that these two current component do not flow through damping resistance, greatly reduce power consumption and the heating of damping resistance, 3, damping resistance does not worry heating problem, can, according to the principle of most heavy damping effect, system resonance risk be dropped to minimum, 4, damping resistance itself does not flow through switching harmonics composition, and therefore the voltage at damping resistance two ends represents the size of resonance degree, can be used for active damping algorithm, therefore can at this resistor in parallel Resonance detector circuit.
Fig. 3 is the schematic diagram of Resonance detector circuit of the present utility model, R7 is damping resistance, C1, C2 and transformer T1 form resonant component and extract circuit, it is made to be tuned on system resonance frequencies, the secondary of T1 connects rectifier bridge D1, D2, D3, D4, resonance current is rectified into direct current, and becomes level and smooth DC waveform by R1, C3 filtering.The height of C3 voltage just represents the size of resonance amplitude, R2, D5, D6, R3, Q1, Q2, R4, R5 are then used for producing harmonic amplitude alarm, principle is: when C3 voltage increases above D6 voltage of voltage regulation value, electric current flows through R2, D5, D6, makes D5 luminous, and by Q1 conducting, Q2 is ended, so C4 voltage starts to raise, make optocoupler Q3 luminous eventually through R6, produce the warning information of resonance.Alarming threshold can adjust flexibly by selecting D6 voltage stabilizing value, and D7 is used for protecting Q3.
Fig. 4 is the schematic diagram of another Resonance detector circuit of the utility model, and after C1, C2 and T1 coupled resonance electric current, become voltage signal by the resistance R8 of secondary, this voltage signal can deliver to controller, for the algorithm of active damping.As previously shown, the electric current of damping resistance has not comprised first-harmonic larger in switching frequency composition and second harmonic composition, so without the need to extra filter circuit, directly can be sampled by controller and include the algorithm of active damping in.
Claims (3)
1. be applied to a high frequency filter for combining inverter, comprise IGBT converter, the first inductance (L1), the second inductance (L2), and RC damping branch road; Described IGBT converter exports connection first inductance (L1), and output connects electrical network by the second inductance (L2); Described RC damping branch road comprises the 5th electric capacity (C5) and damping resistance (R7), and the 5th electric capacity (C5) is connected with damping resistance (R7); The radio-frequency component that IGBT bridge side exports is bypassed on zero line by RC damping branch road; It is characterized in that:
Described RC damping branch circuit parallel connection has the tuning branch road of two-way LC, the 4th inductance (L4), the 7th electric capacity (C7) and the 3rd inductance (L3), the 6th electric capacity (C6), 4th inductance (L4) is connected with the 7th electric capacity (C7), 7th electric capacity (C7) is connected with the 3rd inductance (L3), again respectively with RC damping branch circuit parallel connection, be tuned on switching frequency and switching frequency second harmonic respectively, be used for these 2 kinds of high-frequency current component that energy is the strongest in diverting switch ripple, make this part electric current without RC damping branch road.
2. a kind of high frequency filter being applied to combining inverter according to claim 1, is characterized in that:
Described damping resistance (R7) is parallel with Resonance detector circuit, and described Resonance detector circuit is composed as follows:
First electric capacity (C1), the second electric capacity (C2) and transformer (T1) form resonant component and extract circuit, make it be tuned on system resonance frequencies; The secondary of transformer (T1) is connected with the first rectifier bridge (D1), the second rectifier bridge (D2), the 3rd rectifier bridge (D3), the 4th rectifier bridge (D4), and resonance current is rectified into direct current; Connect the first resistance (R1), the 3rd electric capacity (C3) again, filtering becomes level and smooth DC waveform; The height of the voltage of the 3rd electric capacity (C3) just represents the size of resonance amplitude; Circuit, from the sampling of damping resistance (R7) two ends, is connected to the first transformer (T1) former limit through the first electric capacity (C1) and the second electric capacity (C2); First transformer (T1) secondary exports after carrying out rectification through the first rectifier bridge (D1), the second rectifier bridge (D2), the 3rd rectifier bridge (D3), the 4th rectifier bridge (D4) after exporting, after the devices such as the first resistance (R1), the second resistance (R2), the first rectifier (D5), the second rectifier (D6) and the 3rd electric capacity (C3), make the first triode (Q1), (Q2) conducting of the second triode or cut-off, thus carry out Signal transmissions to the 3rd triode (Q3) Signal transmissions.
3. a kind of high frequency filter being applied to combining inverter according to claim 1, is characterized in that:
Described damping resistance (R7) is parallel with Resonance detector circuit, after first electric capacity (C1), the second electric capacity (C2) and transformer (T1) coupled resonance electric current, voltage signal is become by the 8th resistance (R8) of transformer (T1) secondary, described voltage signal delivers to controller, for the algorithm of active damping.
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CN201520686428.6U CN205212690U (en) | 2015-09-07 | 2015-09-07 | Be applied to grid -connected inverter's high frequency filter |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105226923A (en) * | 2015-09-07 | 2016-01-06 | 北京英博电气股份有限公司 | A kind of high frequency filter being applied to combining inverter |
CN107482931A (en) * | 2017-08-23 | 2017-12-15 | 广路智能科技有限公司 | A kind of small miniature monopole isolation type switching power supply |
CN111220838A (en) * | 2018-11-26 | 2020-06-02 | 三菱电机株式会社 | Semiconductor device with a plurality of semiconductor chips |
-
2015
- 2015-09-07 CN CN201520686428.6U patent/CN205212690U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105226923A (en) * | 2015-09-07 | 2016-01-06 | 北京英博电气股份有限公司 | A kind of high frequency filter being applied to combining inverter |
CN105226923B (en) * | 2015-09-07 | 2018-05-08 | 北京英博电气股份有限公司 | A kind of high frequency filter applied to gird-connected inverter |
CN107482931A (en) * | 2017-08-23 | 2017-12-15 | 广路智能科技有限公司 | A kind of small miniature monopole isolation type switching power supply |
CN111220838A (en) * | 2018-11-26 | 2020-06-02 | 三菱电机株式会社 | Semiconductor device with a plurality of semiconductor chips |
CN111220838B (en) * | 2018-11-26 | 2022-07-01 | 三菱电机株式会社 | Semiconductor device with a plurality of semiconductor chips |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20160504 Effective date of abandoning: 20201010 |
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AV01 | Patent right actively abandoned |